Registering system



arch 16 REGISTERING SYSTEM Filed M a 0 000000 y 1932 00000 OOOOOOOOOOOOOOOOOOUU 0 2 heet et 00000000 00000000000000000000 000000 00000o00000 2 000000000 O0o00000o0000 0000000 00000000Q00000000000 o00 000000 00 0000000000000 00000 00000000000000000000 0004 J8 00000000 00000000000000 00000000000000000000 000 0000000000 \00000000000 000000000000000000 000 0000000000 0000000000 OOOOOOOOOOOOOOO GOO OOO( 0000000000000000000 6 00000000000000 0000 @000c QOOOOQOOOOOOOOOOO O OQOQOQ OOOO OQOGO O Q 000000000000000000 00000000000 0000000 OOO( 7 Q0 OOOOOOOOOOOOOQQOO 0000 9 0 OQOQOOOO 996K 0000000000000000000 00000000000000000 0000 00000009 OQQGQGOOOQOOQOQQOO @QQQOQ QOQQQOOQOG QQOC 05 oow 0000000 00000000 00 Q OOQ OQQOQOOO OOOOOQQQ (39 00000 00000000 00000000 00 @9000 9099099 OOOOQQQQ OQ 5 5 6 5 5 5 3 8 5 5 0 8-; 00900 OOQOQQOO 0 QQQQQQQ Q9 QQQQQ OOOOQQOO ,QOOQOOO @9 00000 000000000 00000000 cor 'JG @QOQQ QOQQOOQO OOOOOQ QQ 00000 0000 0000 0000 00% 00 @QOQQ QQOOOOQ @QOO 09 0O 00000 OOOOOO o0 QOOOO 0000 00 @9090 @909 0 OOOQQQQO O0 00000 0000 0 0 0000 0000 00) 9999 OQQOO ,0 G99 QOQO @Q VENTOR EN BY 13 ATTORNEY Patented Mar. 16, 1937 UNITED STATES PATENT OFFICE 2,073,983 REGISTERING SYSTEM Emil N. Anderson, Oak Park, 111., assignor to American Telephone and Telegraph Company, a corporation of New York Application May 17, 1932, Serial No. 611,908 1 Claim. 74112) This invention relates to measuring devices shaft 2 is adapted to be rotated continuously at and more particularly to registers for measuring a constant speed, for example, by means of a the elapsed time of telephone conversations. synchronous motor. Driving gear 3 is fastened In telephone systems it is at present customary to one end of hub 9 which, in turn, is mounted to charge for long distance or toll calls on a on shaft 2, and is adapted to rotate therewith.

time basis and for local calls on a message 01 Gear 3 is of the crown geai type-that IS, the 5 fiat rate basis In the case of local calls of the teeth protrude fiom the inner face thereof as message rate type, it is sometimes necessary to shown in Figs. 3 and charge for what is generally known as over- Dial wheel assembly 4 consists of gear ill, 10 time. In other words, a certain charge is made which is also of the crown gear type, dial wheel 10 for each completed call lasting a predetermined member H, escapement teeth !2 and i3 and period of time or less, for example, five minutes, escapement tension spring M The dial wheel and an ovei -time charge is made for each addiassembly is mounted within case I in such potional predetermined period of time during which sition that the periphery of dial wheel member a call lasts. In the case of a coin box call the l I is visible through window l5 in case I. Gear 15 '1 .9 charge is made as if it were another call, or on period. All the timing periods may be of equal an elapsed time basis. length, for example, five minutes, or the first It has heretofore been suggested in connection period 'may be longer than the subsequent peeach cord circuit of the telephone switchboard example. The number of sections is dependen driving shaft, and each individual register being sion spring I4 is connected to bar l6 of gear I0, provided with means for starting, stopping, and which bar member protrudes through a slot l1 restoring it to normal, as desired. of dial wheel member II. The other end of One object of this invention is to provide an spring [4 is connected to bar member l8 of dial accurate and inexpensive register for use in conwheel member H. Escapement teeth I3 pro 35 nection with such systems. Another object is trude from the face of gear H3 at points adto provide such a register with escapement means jacent the regular gear teeth. incorporated therewith. Other objects and feaedge of each tooth slopes toward the face of the tures of the invention will be apparent from the gear and the rear edge of each tooth is straight detailed description hereinafter set forth. or horizontal. One such tooth is provided for top view of the register with the top of the case the points at which teeth l3 protrude from 45 removed; Fig. 4 is a cross-section of all except the face of gear H1. The forward edge of each one of the rotating parts of the register; Fig. 5 of teeth I2 is straight or horizontal and the rear is a perspective view of the driving gear; Fig. 6 edge slopes toward the edge of the dial wheel is a perspective view, from one side, of the dial member. One end of escapement spring I 9 is view assembly; Fig. 7 is a perspective view, from fastened to the side of the case. The other end 50 the other side, of the dial view assembly; and of spring [9 is bent inwardly, said bent part be- Fig. 8 illustrates a telephone switchboard posiing adapted normally to fit in between teeth I 2 tion showing the manner in which the register and i 3 when the dial Wheel assembly is moved may be associated with the equipment of a into engagement with driving gear 3.

telephone system. Clutch means 5 consists of a shifting fork 20,

As shown in Figs. 1-7, the apparatus consists" which is pivoted at 2| to the bottom of the case, in general of a case I, a driving shaft 2, a drivand a peculiarly shaped spring 22. The shifting gear 3, a dial wheel assembly 4, a clutch ing fork is in such position within the case that means 5, a clutch control means 6, a control or its prongs fit in a groove in hub 23 of gear I0.

released spring 1, and a reset spring 8. Driving Spring 22 is shaped more or less like a horse 60 shoe. One end of said spring is fastened to shifting fork 20 and the other end rests against the opposite side of the case. The position of this spring, with respect to the other parts of the register, is, shown in Figs. 1,2 and 3. Near its curved part this spring is bent inwardly to form flange 24.

Clutch control means 6 is T-shaped with one end of the top member being bent upward, as shown at 25 in Fig. 1. The vertical member extends downwardly through a slot in-case l and is pivoted to the sides of the case at 26. The lower part 21 of the vertical member is cylindrically shaped and is positioned within the curved part of clutch spring 22, as shown in Fig. 1.

Control or release spring 1 is positioned beneath the dial wheel assembly and the clutch control means, one end thereof being fastened to the bottom of the case. At one point on said spring a part thereof is bent upward to form flange 28. At another point thereon a part thereof is bent upward to form flange 29. The free end of said spring is bent upward to form a third flange 30. Flange serves as a holding means for clutch control means 6, flange 29 I serves as a stop for the dial wheel assembly when it is being reset and flange 28 when pressed down by tripping member 3|, which is fastened to the periphery of the dial wheel member, causes the release of the clutch control means 6.

The reset means consists of coil spring 8 wound around hub 32 of dial wheel member II. The inner end of said spring is fastened to a bar 33 of hub 23 of gear 10, which bar protrudes through a slot 34 in hub 32. The outer end of said spring is fastened to the side of the case as shown in Fig. 3.

As stated above, shaft 2 and gear 3 rotate continuously at a constant speed. When the register is in its inoperative condition, end 25 of clutch control means 6 is pressed down and cylindrically shaped arm 21 thereof is positioned in front of flange 30 and rests lightly against spring 22. As a result, dial wheel assembly 4 remains in its disengaged position with respect to rotating gear 3, as shown in Fig. 3. When end 35 of clutch control means 6 is pressed down, arm 21 thereof moves to a position at the rear of flange 30 as shown in Fig. 1, and is held in such position by flange 30. Arm 21 when in this position exerts pressure on the curved part, particularly on flange. 24 of clutch spring 22. Pressure exerted on this part of spring 22 causes its ends to move toward each other. This movement of the end which is fastened to shifting fork 20 causes the entire dial wheel assembly to slide along hub 9 to a position such that escape ment spring l9 flts in between one of escapement teeth 12 and one of escapement teeth l3 and such that the regular teeth of gear 10 mesh with the regular teeth of gear 3. Since the forward edges of escapement teeth 12 are straight or horizontal, escapement spring 19 prevents the rotation of dial wheel member I l. However, since the forward edges of escapement teeth 13 slope I toward the face of gear I!) and since dial wheel member II is loosely mounted on gear H), escapement spring i9 does not interfere with the rotation of gear l0, and hence, gear ill begins to rotate with gear 3 at a constant predetermined speed. Since one end of escapement tension spring 16 is connected to gear Ill and the other end to dial wheel member II, the rotation of gear [0 distorts spring 14. The rotation of gear 10 causes escapement spring i9 b l f ed.

by the sloping edge of the next succeeding one of teeth l3 gradually out of engagement with the straight or horizontal edge of tooth 12. This disengagement occurs when the straight edge of the next succeeding one of teeth 13 is substantially in alignment withthe straight edge of tooth 12. As soon as this disengagement occurs, tension spring 14 becomes effective to cause dial wheel member II to rotate very rapidly in the same direction as gear 10 and quickly overtake said gear. As dial wheel member ll rotates, escapement spring l9 slides down the sloping edge of tooth 12, so to speak, until it reaches a position such that the straight edge of the next succeeding one of teeth 12 encounters said spring. The engagement of said next succeeding one of teeth 12 with escapement spring 19 again prevents the rotation of dial wheel member H. The further rotation of gear [0 again causes escapement spring l9 to be lifted by the sloping edge of the next succeeding one of out of engagement with the straight edge of tooth l2, and the cycle of operations described above is repeated until dial wheel member H has rotated substantially one revolution. The position of escapement spring [9 and the positions of teeth 12 and I3 are such that only one numbered section on the periphery of the dial wheel member H is visible through window l5 at any one time. The speed at which gear Ill rotates is such that each successive number on the periphery of the dial wheel member remains visible through window IS a predetermined period of time, for example, five minutes. At the end of each period of time the number then visible quickly disappears and almost simultaneously with such disappearance the next higher number appears. When dial wheel member ll rotates substantially one revolution, tripping member 31 comes in contact with and presses down flange 28 of control spring 1. This causes flange 30 of spring 1 to be pressed down to a position below arm 21 of clutch control means 6. Clutch spring 22, being distorted, quickly moves arm 21 to its normal unoperated position in front of flange 30, which, of course, causes arm 25 to move downward and arnr 35 to move upward. Simultaneously with the release of clutch control means 6, the ends of spring 22 spread out. or move apart. This movement of the end to which shifting fork 20 is fastened moves said shifting fork to the right, which in turn slides the entire dial wheel assembly to the right along hub 9. This disengages gear 10 from gear 3 and teeth 12 and I3 from escapement spring 19. Reset coil spring 8, which was wound up by the rotation of gear l0 and dial wheel member ll, now becomes effective to cause the entire dial wheel assembly to rotate in the opposite direction until tripping cam 3| comes in contact with flange 29 and stops the reverse rotation of the dial wheel assembly, at which time the dial wheel assembly is in its normal zero position. The apparatus is now in its inoperative condition. It can be seen from the above descriptionthat at the end of a predetermined number of timing periods the apparatus automatically releases the clutch control means and the clutch means and automatically restores itself to its normal inoperative condition. However, it may be restored to its normal inoperative condition at any time by pressing down end 25 of clutch control means 6. If end 25 of clutch means 6 is pressed down teeth I 3 gradually against flange 30 with sufiicient force to cause bered I suddenly disappears and section numflange 30 to move down and permit arm 21 to bered 2 immediately becomes visible through position in front of said flange. As a result, the operator enters the details of the call on an 5 the clutch means is released, gear I is disenover-time ticket preparatory to entering the is restored to its normal zero position as before. of the second timing period and of each suc- As stated above, Fig. 8 illustrates the manner ceeding period the section then visible s in which the registers may be used in connecdisappears and the succeeding section imme- 10 tion with the equipment of a telephone system diately becomes visible. If the call should last 10 multiple jacks, depending upon the particular assembly restored to its normal zero position 15 circuits, 40 the cord supervisory lamps, 4| the the operator will immediately re-operate end 35 message register keys, and 42 the ringing and of clutch control means 6 and t listening keys. The registers indicated at 43 again start timing the call. At

are mounted side by side on the top of the k y of the call the operator presses down end 20 shelf, each register being in alignment with the of clutch control means 6 and in the case of a plugs of the cord circuit with which it is to be message rate call, depresses the and 3 that the driving shaft 2 of each register connection and enters on the tic 25 has a male and female end. When the registers of over-time periods. The operation of the 25 the female end of the shaft of the adjacent mal zero position, register. As a result, the several shafts of the Although t ent h s b registers form a common driving shaft which i ecti n ith a telephone 5 is divided into a plurality of sections with male uring v r-ti on l l ll and female ends, one section for each register. stood th t t may b en described ystem for meas- 30 s, it is to be underused in connection with switchboard and any register may be ep 0 thereof may be used in connection with other 35 the case may be, of the driving shaft of a cont is Claimed tinuou ly ope a d constant speed motor 44, for In combination, a driving means, a first rota- 40 example, which shaft is connected to the motor table element adapted t b t t d by aid through suitable gearin a-pparatus- Motor 44 driving means, a second rotatable element 45 issued to Henry Warren On October 1918- element to rotate with said first rotatable ele- 45 measuring Over-time local Calls- When the the forward edge thereof sloping toward the 50 0f the subscriber desired. She then inserts the positioned slightly to the rear of 3, correspond. 55

subscribe s mu t p j W the Called S of said second rotatable element as said first 60 above, dial wheel member H remains stationary. when said escapement spring is disengaged, to 70 As a result, section numbered I remains visible cause said second rotatable element to rotate through window (5. At the end of the first timin the direction of and overtake said first rotaing period the escapement means operates in table element. the manner described above and section num- EMIL N. ANDERSON. 

